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Ibrahim Ozbolat

Hartz Family Career Development Associate Professor of ESM

Affiliation(s):

  • Engineering Science and Mechanics
  • Biomedical Engineering

W313 Millennium Science Complex

ito1@psu.edu

814-863-5819

Personal or Departmental Website

Research Areas:

Emerging Manufacturing Processes for Materials, Tissues, and Devices

 
 

 

Education

  • BS, Industrial Engineering, Middle East Technical University, 2006
  • BS, Mechanical Engineering, Middle East Technical University, 2007
  • Ph D, Industrial and Systems Engineering, University at Buffalo, 2011

Publications

Books

  • Ibrahim Ozbolat, 2016, 3D Bioprinting: Fundamentals, Principles and Applications, pp. 1-342

Book, Chapters

  • Yang Wu, Yahui Zhang, Yin Yu and Ibrahim Ozbolat, 2019, 3D Coaxial Bioprinting of Vasculature, Springer Nature
  • P Datta, Y Wu, Yin Yu, K K Moncal and Ibrahim Ozbolat, 2019, A scaffold-free 3D bioprinted cartilage model for in vitro toxicology, Springer
  • B Ayan, V Ozbolat, S Tigli and Ibrahim Ozbolat, 2019, 3D Bioprinting in Regenerative Medicine, The Chamber of Electrical Engineers, Ankara, Turkey
  • Weijie Peng, Pallab Datta, Yang Wu, Madhuri Dey, Bugra Ayan, Amer Dababneh and Ibrahim Ozbolat, 2018, Challenges in bio-fabrication of organoid cultures, pp. 53-71
  • M Hospodiuk, K K Moncal, M Dey and Ibrahim Ozbolat, 2018, Extrusion-based Bioprinting in Tissue Engineering and Regenerative Medicine, Springer, pp. 1-27
  • A Leberfinger,, K K Moncal, Dino Ravnic and Ibrahim Ozbolat, 2017, 3D Printing for Cell Therapy Applications, Humana Press, Cham, pp. 227-248
  • Ibrahim Ozbolat, 2011, Biomanufacturing, Pearson, United States, pp. 1-24

Journal Articles

  • Kazim K. Moncal, Veli Ozbolat, Pallab Datta, Dong N. Heo and Ibrahim Ozbolat, 2019, "Thermally-controlled extrusion-based bioprinting of collagen", Journal of Materials Science: Materials in Medicine, 30, (55), pp. 1-14
  • Veli Ozbolat, Madhuri Dey, Bugra Ayan and Ibrahim Ozbolat, 2019, "Extrusion-based printing of sacrificial Carbopol ink for fabrication of microfluidic devices", Biofabrication, 11, (3), pp. 034101
  • Srinivas Koduru, Ashley N. Leberfinger, Denis Pasic, Anoosha Forghani, Shane Lince, Daniel Hayes, Ibrahim Ozbolat and Dino J Ravnic, 2019, "Cellular Based Strategies for Microvascular Engineering", Stem Cell Reviews and Reports, 15, (2), pp. 218-240
  • Aman Dhawan, Patrick Merrill Kennedy, Elias B Rizk and Ibrahim Ozbolat, 2019, "Three-dimensional bioprinting for bone and cartilage restoration in orthopaedic surgery", Journal of the American Academy of Orthopaedic Surgeons, 27, (5), pp. E215-E226
  • Songul Ulag, Cevriye Kalkandelen, Faik Nuzhet Oktar, Muhammet Uzun, Yesim Muge Sahin, Betul Karademir, Sema Arslan, Ibrahim Ozbolat, Mahir Mahirogullari and Oguzhan Gunduz, 2019, "3D Printing Artificial Blood Vessel Constructs Using PCL/Chitosan/Hydrogel Biocomposites", ChemistrySelect, 4, (8), pp. 2387-2391
  • Dong Nyoung Heo, Monika Hospodiuk and Ibrahim Ozbolat, 2019, "Synergistic interplay between human MSCs and HUVECs in 3D spheroids laden in collagen/fibrin hydrogels for bone tissue engineering", Acta Biomaterialia, 95, pp. 348-356
  • A Dotta, A Wali, Yang Wu, A Ponnone, L K Reddy, S Ozdemir, Ibrahim Ozbolat and Saptarshi Das, 2019, "Biological One-Way Function for Secure Key Generation", Advanced Theory and Simulations, 2, (2), pp. 1800154
  • A Wali, A Dotta, Yang Wu, A Ponnone, L K Reddy, S Ozdemir, Ibrahim Ozbolat and Saptarshi Das, 2019, "Biological - Physically Unclonable functon (Bio-PUF)", Communications Physics, 2, (1), pp. 39
  • Kazim Moncal, R.S.D. Aydin, M. Abu-Laban, D. N. Heo, Elias Rizk, Scott M. Tucker, G. S. Lewis, D. Hayes and Ibrahim Ozbolat, 2019, "Collagen-infilled 3D printed scaffolds loaded with miR-148b-transfected bone marrow stem cells improve calvarial bone regeneration in rats", Materials Science and Engineering: C, 105, pp. 110128
  • Yang Wu, Monika Hospodiuk, Weijie Peng, Hemanth Gudapati, Thomas Neuberger, Srinivas Koduru, Dino J. Ravnic and Ibrahim Ozbolat, 2019, "Porous tissue strands: avascular building blocks for scalable tissue fabrication", Biofabrication, 11, (1), pp. 015009
  • Ashley N. Leberfinger, Shantanab Dinda, Yang Wu, Srinivas Koduru, Veli Ozbolat, Dino J Ravnic and Ibrahim Ozbolat, 2019, "Bioprinting functional tissues", Acta Biomaterialia, 95, pp. 32-49
  • Kazim K. Moncal, Dong N. Heo, Kevin P. Godzik, Donna M. Sosnoski, Oliver D. Mrowczynski, Elias B Rizk, Veli Ozbolat, Scott M. Tucker, Ethan M. Gerhard, Madhuri Dey, Gregory Stephen Lewis, Jian Yang and Ibrahim Ozbolat, 2018, "3D printing of poly(?-caprolactone)/poly(D,L-lactide-co-glycolide)/hydroxyapatite composite constructs for bone tissue engineering", Journal of Materials Research, 33, (14), pp. 1972-1986
  • P Sasmal, P Datta, Yang Wu and Ibrahim Ozbolat, 2018, "3D Bioprinting for Modeling of Vasculature", MicroPyhsiological Systems, 2, (9), pp. 1-17
  • Yang Wu, Patrick Kennedy, Nicholas Bonazza, Yin Yu, Aman Dhawan and Ibrahim Ozbolat, 2018, "Three-Dimensional Bioprinting of Articular Cartilage: A Systematic Review", Cartilage
  • Veli Ozbolat, Madhuri Dey, Bugra Ayan, Adomas Povidianskas, Melik C Demirel and Ibrahim Ozbolat, 2018, "3D Printing of PDMS Improves Its Mechanical and Cell Adhesion Properties", ACS Biomaterials Science & Engineering, 4, (2), pp. 682-693
  • Mert Vural, Abdon Pena-Francesch, Joan Bars-Pomes, Huihun Jung, Hemanth Gudapati, Christine B. Hatter, Benjamin D Allen, Babak Anasori, Ibrahim Ozbolat, Yury Gogotsi and Melik C Demirel, 2018, "Inkjet Printing of Self-Assembled 2D Titanium Carbide and Protein Electrodes for Stimuli-Responsive Electromagnetic Shielding", Advanced Functional Materials, 28, (32), pp. 1801972
  • Monika Hospodiuk, Madhuri Dey, Bugra Ayan, Donna Sosnoski, Kazim K. Moncal, Yang Wu and Ibrahim Ozbolat, 2018, "Sprouting angiogenesis in engineered pseudo islets", Biofabrication, 10, (3), pp. 035003
  • Ashley N. Leberfinger, Monika Hospodiuk, Abdon Pena-Francesch, Bugra Ayan, Veli Ozbolat, Srinivas V. Koduru, Ibrahim Ozbolat, Melik C Demirel and Dino J. Ravnic, 2018, "Squid Ring Teeth-coated Mesh Improves Abdominal Wall Repair", Plastic and Reconstructive Surgery-Global Open, 6, (8), pp. e1881
  • Aishwarya Satpathy, Pallab Datta, Yang Wu, Bugra Ayan, Ertugrul Bayram and Ibrahim Ozbolat, 2018, "Developments with 3D bioprinting for novel drug discovery", Expert Opinion on Drug Discovery, 13, (12), pp. 1115-1129
  • Pallab Datta, Ananya Barui, Yang Wu, Veli Ozbolat, Kazim K. Moncal and Ibrahim Ozbolat, 2018, "Essential steps in bioprinting: From pre- to post-bioprinting", Biotechnology Advances, 36, (5), pp. 1481-1504
  • Monika Hospodiuk, Madhuri Dey, Donna Sosnoski and Ibrahim Ozbolat, 2017, "The bioink: A comprehensive review on bioprintable materials", Biotechnology Advances, 35, (2), pp. 217-239
  • Pallab Datta, Aman Dhawan, Yin Yu, Dan Hayes, Hemanth Gudapati and Ibrahim Ozbolat, 2017, "Bioprinting of osteochondral tissues: A perspective on current gaps and future trends", International Journal of Bioprinting, 3, (2), pp. 109-120
  • Anh-Vu Do, Adil Akkouch, Brian Green, Ibrahim Ozbolat, Amer Debabneh, Sean Geary and Aliasger K. Salem, 2017, "Controlled and Sequential Delivery of Fluorophores from 3D Printed Alginate-PLGA Tubes", Annals of Biomedical Engineering, 45, (1), pp. 297-305
  • Weijie Peng, Pallab Datta, Bugra Ayan, Veli Ozbolat, Donna Sosnoski and Ibrahim Ozbolat, 2017, "3D bioprinting for drug discovery and development in pharmaceutics", Acta Biomaterialia, 57, pp. 26-46
  • Dino J. Ravnic, Ashley N. Leberfinger and Ibrahim Ozbolat, 2017, "Bioprinting and Cellular Therapies for Type 1 Diabetes", Trends in Biotechnology, 35, (11), pp. 1025-1034
  • Pallab Datta, Bugra Ayan and Ibrahim Ozbolat, 2017, "Bioprinting for vascular and vascularized tissue biofabrication", Acta Biomaterialia, 51, pp. 1-20
  • Pallab Datta, Veli Ozbolat, Bugra Ayan, Aman Dhawan and Ibrahim Ozbolat, 2017, "Bone Tissue Bioprinting for Craniofacial Reconstruction", Biotechnology and Bioengineering, 114, (11), pp. 2424-2431
  • Ashley N. Leberfinger, Dino J. Ravnic, Aman Dhawan and Ibrahim Ozbolat, 2017, "Concise Review: Bioprinting of Stem Cells for Transplantable Tissue Fabrication", Stem Cells Translational Medicine, 6, (10), pp. 1940-1948
  • Ethan Michael Gerhard, Wei Wang, Caiyan Li, Jinshan Guo, Ibrahim Ozbolat, Kevin Michael Rahn, April Dawn Armstrong, Jingfen Xia, Guoying Qian and Jian Yang, 2017, "Design strategies and applications of nacre-based biomaterials", Acta Biomaterialia, 54, pp. 21-34
  • Ibrahim Ozbolat, Kaizim K. Moncal and Hemanth Gudapati, 2017, "Evaluation of bioprinter technologies", Additive Manufacturing, 13, pp. 179-200
  • Dino J. Ravnic, Ashley N. Leberfinger, Srinivas V. Koduru, Monika Hospodiuk, Kazim K. Moncal, Pallab Datta, Madhuri Dey, Elias Rizk and Ibrahim Ozbolat, 2017, "Transplantation of Bioprinted Tissues and Organs Technical and Clinical Challenges and Future Perspectives", Annals of Surgery, 266, (1), pp. 48-58
  • Stephanie Knowlton, Ashwini Joshi, Bekir Yenilmez, Ibrahim Ozbolat, Chee Kai Chua, Ali Khademhosseini and Savas Tasoglu, 2016, "Advancing cancer research using bioprinting for tumor-on-a-chip platforms", International Journal of Bioprinting, 2, (2), pp. 3-8
  • Martin Heller, Heide Katharina Bauer, Elisabeth Goetze, Matthias Gielisch, Ibrahim Ozbolat, Kazim K. Moncal, Elias B Rizk, Hermann Seitz, Michael Gelinsky, Heinz C. Schröder, Xiaohong H. Wang, Werner E. Werner and Bilal Al-Nawas, 2016, "Materials and scaffolds in medical 3D printing and bioprinting in the context of bone regeneration", International Journal of Computerized Dentistry, 19, (4), pp. 301-321
  • Ibrahim Ozbolat and Hemanth Gudapati, 2016, "A review on design for bioprinting", Bioprinting, 3, pp. 1-14
  • Yin Yu, Kazim K. Moncal, Jianqiang Li, Weijie Peng, Iris Rivero, James A. Martin and Ibrahim Ozbolat, 2016, "Three-dimensional bioprinting using self-assembling scalable scaffold-free "tissue strands" as a new bioink", Scientific Reports, 6, pp. 28714
  • Hemanth Gudapati, Madhuri Dey and Ibrahim Ozbolat, 2016, "A comprehensive review on droplet-based bioprinting: Past, present and future", Biomaterials, 102, pp. 20-42
  • Ibrahim Ozbolat, Weijie Peng and Veli Ozbolat, 2016, "Application areas of 3D bioprinting", Drug Discovery Today, 21, (8), pp. 1257-1271
  • Weijie Peng, Derya Unutmaz and Ibrahim Ozbolat, 2016, "Bioprinting towards Physiologically Relevant Tissue Models for Pharmaceutics", Trends in Biotechnology, 34, (9), pp. 722-732
  • Ibrahim Ozbolat and Monika Hospodiuk, 2016, "Current advances and future perspectives in extrusion-based bioprinting", Biomaterials, 76, pp. 321-343
  • Ibrahim Ozbolat, 2015, "Editorial: Special Issue on Three-Dimensional Bioprinting", Journal of Nanotechnology in Engineering and Medicine, 6, (2), pp. 020301
  • Ibrahim Ozbolat, 2015, "Scaffold-Based or Scaffold-Free Bioprinting: Competing or Complementing Approaches?", Journal of Nanotechnology in Engineering and Medicine, 6, (2), pp. 024701
  • Yahui Zhang, Yin Yu, Adil Akkouch, Amer Dababneh, Farzaneh Dolati and Ibrahim Ozbolat, 2015, "In vitro study of directly bioprinted perfusable vasculature conduits", Biomaterials Science, 3, (1), pp. 134-143
  • Adil Akkouch, Yin Yu and Ibrahim Ozbolat, 2015, "Microfabrication of scaffold-free tissue strands for three-dimensional tissue engineering", Biofabrication, 7, (3), pp. 031002
  • Amer Dababneh and Ibrahim Ozbolat, 2015, "Predictive reliability and lifetime methodologies for circuit boards", Journal of Manufacturing Systems, 37, pp. 141-148
  • Ninggang Shen, Hongtao Ding, Robert Bowers, Yin Yu, Chelsey N. Pence, Ibrahim Ozbolat and Clark M. Stanford, 2015, "Surface Micropatterning of Pure Titanium for Biomedical Applications Via High Energy Pulse Laser Peening", Journal of Micro and Nano-manufacturing, 3, (1), pp. 011005
  • Ibrahim Ozbolat, 2015, "Bioprinting scale-up tissue and organ constructs for transplantation", Trends in Biotechnology, 33, (7), pp. 395-400
  • Amer B. Dababneh and Ibrahim Ozbolat, 2014, "Bioprinting Technology: A Current State-of-the-Art Review", Journal of Manufacturing Science and Engineering, 136, (6), pp. 061013
  • Amer B. Dababneh, Ben Goerdt, Timothy Marler and Ibrahim Ozbolat, 2014, "A Virtual Prognostic Tool for Nuclear Power Electronics Reliability", Computer-Aided Design and Applications, 11, (2), pp. 228-238
  • Yin Yu, Yahui Zhang and Ibrahim Ozbolat, 2014, "A Hybrid Bioprinting Approach for Scale-Up Tissue Fabrication", Journal of Manufacturing Science and Engineering, 136, (6), pp. 061016
  • Ibrahim Ozbolat, Khoda and A. K. M. B., 2014, "Design of a New Parametric Path Plan for Additive Manufacturing of Hollow Porous Structures With Functionally Graded Materials", Journal of Computing and Information Science in Engineering, 14, (4), pp. 041005
  • Ibrahim Ozbolat, Howard Chen and Yin Yu, 2014, "Development of 'Multi-arm Bioprinter' for hybrid biofabrication of tissue engineering constructs", Robotics and Computer-Integrated Manufacturing, 30, (3), pp. 295-304
  • Yahui Zhang, Yin Yu, Farzaneh Dolati and Ibrahim Ozbolat, 2014, "Effect of multiwall carbon nanotube reinforcement on coaxially extruded cellular vascular conduits", Materials Science and Engineering: C, 39, pp. 126-133
  • Farzaneh Dolati, Yin Yu, Yahui Zhang, De Jesus, Aribet M., Edward A. Sander and Ibrahim Ozbolat, 2014, "In vitro evaluation of carbon-nanotube-reinforced bioprintable vascular conduits", Nanotechnology, 25, (14), pp. 145101
  • Kuntal Samanta, Ibrahim Ozbolat and Bahattin Koc, 2014, "Optimized normal and distance matching for heterogeneous object modeling", Computers & Industrial Engineering, 69, pp. 1-11
  • Yahui Zhang, Yin Yu and Ibrahim Ozbolat, 2013, "Direct bioprinting of vessel-like tubular microfluidic channels", Journal of Nanotechnology in Engineering and Medicine, 4, (2), pp. 1-7
  • A. K.M. Khoda, Ibrahim Ozbolat and Bahattin Koc, 2013, "Modeling of variational gradient porous architecture with multidirectional filament deposition in 3D scaffolds", Computer-Aided Design and Applications, 10, (3), pp. 445-459
  • Ibrahim Ozbolat and Yin Yu, 2013, "Bioprinting Toward Organ Fabrication: Challenges and Future Trends", IEEE Transactions on Biomedical Engineering, 60, (3), pp. 691-699
  • Yahui Zhang, Yin Yu, Howard Chen and Ibrahim Ozbolat, 2013, "Characterization of printable cellular micro-fluidic channels for tissue engineering", Biofabrication, 5, (2), pp. 024004
  • Ibrahim Ozbolat, Michelle Marchany, Gardella, Joseph A., Jr. and Bahattin Koc, 2013, "Computer-Aided 4D Modeling of Hydrolytic Degradation in Micropatterned Bioresorbable Membranes", Journal of Medical Devices, 7, (2), pp. 021004
  • Khoda, A. K. M., Ibrahim Ozbolat and Bahattin Koc, 2013, "Designing heterogeneous porous tissue scaffolds for additive manufacturing processes", Computer-Aided Design, 45, (12), pp. 1507-1523
  • Yin Yu, Yahui Zhang, James A. Martin and Ibrahim Ozbolat, 2013, "Evaluation of Cell Viability and Functionality in Vessel-like Bioprintable Cell-Laden Tubular Channels", Journal of Biomechanical Engineering, 135, (9), pp. 021001
  • Ibrahim Ozbolat, Amer Dababneh, Omer Elgaali, Yahui Zhang, Timothy Marler and Steven Turek, 2012, "A model based enterprise approach in electronics manufacturing", Computer-Aided Design and Applications, 9, (6), pp. 847-856
  • Ibrahim Ozbolat, A. K.M.B. Khoda, Michelle Marchany, Joseph A. Gardella and Bahattin Koc, 2012, "Hybrid tissue scaffolds for controlled release applications: A study on design and fabrication of hybrid and heterogeneous tissue scaffolds for controlled release applications is presented in this paper", Virtual and Physical Prototyping, 7, (1), pp. 37-47
  • Ibrahim Ozbolat and Bahattin Koc, 2012, "3D hybrid wound devices for spatiotemporally controlled release kinetics", Computer Methods and Programs in Biomedicine, 108, (3), pp. 922-931
  • Ibrahim Ozbolat and Bahattin Koc, 2011, "A continuous multi-material toolpath planning for tissue scaffolds with hollowed features", Computer-Aided Design and Applications, 8, (2), pp. 237-247
  • Ibrahim Ozbolat and Bahattin Koc, 2011, "Multi-function based modeling of 3D heterogeneous wound scaffolds for improved wound healing", Computer-Aided Design and Applications, 8, (1), pp. 43-57
  • A. K Khoda, Ibrahim Ozbolat and Bahattin Koc, 2011, "Engineered tissue scaffolds with variational porous architecture", Journal of Biomechanical Engineering, 133, (1), pp. 011001
  • Khoda, A. K. M., Ibrahim Ozbolat and Bahattin Koc, 2011, "A functionally gradient variational porosity architecture for hollowed scaffolds fabrication", Biofabrication, 3, (3), pp. 034106
  • Ibrahim Ozbolat and Bahattin Koc, 2011, "Multi-directional blending for heterogeneous objects", Computer-Aided Design, 43, (8), pp. 863-875
  • Ibrahim Ozbolat and Bahattin Koc, 2010, "Modeling of Spatially Controlled Biomolecules in Three-Dimensional Porous Alginate Structures", Journal of Medical Devices, 4, (4), pp. 041003
  • Ibrahim Ozbolat, Michelle Marchany, Joseph A. Gardella, Frank V. Bright, Alex N. Cartwright, Robert Hard, Wesley L. Hicks and Bahattin Koc, 2009, "Feature-based design of bio-degradable micro-patterned structures", Computer-Aided Design and Applications, 6, (5), pp. 661-671

Conference Proceedings

  • Amer B. Dababneh and Ibrahim Ozbolat, 2014, "A virtual reliability tool for circuit boards", pp. 72-77
  • Farzaneh Dolati, Yin Yu, Yahui Zhang and Ibrahim Ozbolat, 2014, "Carbon-nanotube reinforced vascular conduits", pp. 1-10
  • Yahui Zhang, Farzaneh Dolati, Yin Yu and Ibrahim Ozbolat, 2014, "Effect of carbon nanotube reinforcement on coaxially extruded vascular conduits", 42, (January), pp. 178-185
  • Ninggang Shen, Chelsey N. Pence, Robert Bowers, Yin Yu, Hongtao Ding, Clark M. Stanford and Ibrahim Ozbolat, 2014, "Surface micro-scale patterning for biomedical implant material of pure titanium via high energy pulse laser peening", 2, pp. 1-7
  • Yin Yu and Ibrahim Ozbolat, 2014, "Tissue strands as "bioink" for scale-up organ printing", pp. 1428-1431
  • Benjamin B. Goerdt, Amer Dababneh, Timothy Marler, Ibrahim Ozbolat, Benjamin Weintraub and Ross Johnson, 2014, "Integration Of A Reliability Model Within A Virtual Analysis System For Printed Circuit Boards", Proceedings of The ASME International Mechanical Engineering Congress And Exposition, 11
  • Yin Yu and Ibrahim Ozbolat, 2014, "Tissue Strands as "Bioink" for Scale-up Organ Printing", 2014 36th Annual International Conference of The IEEE Engineering In Medicine And Biology Society (EMBC), pp. 1428-1431
  • Yahui Zhang, Yin Yu and Ibrahim Ozbolat, 2013, "Characterization of printable micro-fluidic channels for organ printing", 1
  • Yin Yu and Ibrahim Ozbolat, 2013, "Bioprinting induced cell damage in cellular micro-fluidic channel fabrication", 1
  • Howard Chen and Ibrahim Ozbolat, 2013, "Development of a multi-arm bioprinter for hybrid tissue engineering", 1, pp. 1-5
  • Yahui Zhang and Ibrahim Ozbolat, 2013, "Characterization of vessel-like printable cellular microfluidic channel", pp. 2291-2298
  • A. K.M. Khoda, Ibrahim Ozbolat and Bahattin Koc, 2013, "Functionally gradient tissue scaffold design and deposition path planning for bio-additive processes", pp. 2253-2262
  • Benjamin B. Goerdt, Amer Dababneh, Timothy Marler, Ibrahim Ozbolat, Benjamin Weintraub and Ross Johnson, 2013, "Integration of a reliability model within a virtual analysis system for printed circuit boards", 11
  • A. K.M.Bashirul Khoda, Ibrahim Ozbolat and Bahattin Koc, 2013, "Spatially multi-functional porous tissue scaffold", 59, pp. 174-182
  • Yin Yu and Ibrahim Ozbolat, 2013, "Cell viability characterization of bioprintable blood-vessel-like cellular channels towards 3D organ fabrication", pp. 2299-2304
  • Ibrahim Ozbolat, 2013, "3D functional organ printing: Promises and future challenges", pp. 2220-2226
  • Howard Chen and Ibrahim Ozbolat, 2013, "A multi-material bioprinting platform towards stratified articular cartilage tissue fabrication", pp. 2246-2252
  • Amer Dababneh and Ibrahim Ozbolat, 2013, "A virtual predictive environment for monitoring reliability and maintainability of printed circuit boards", pp. 2384-2393
  • Ibrahim Ozbolat, Akmb Khoda and Bahattin Koc, 2013, "Bioadditive Manufacturing Of Hybrid Tissue Scaffolds For Controlled Release Kinetics", International Mechanical Engineering Congress And Exposition, pp. 233-237
  • Yin Yu and Ibrahim Ozbolat, 2013, "Bioprinting Induced Cell Damage In Cellular Micro-fluidic Channel Fabrication", Proceedings of The ASME 8th International Manufacturing Science And Engineering Conference
  • Yahui Zhang, Yin Yu and Ibrahim Ozbolat, 2013, "Characterization Of Printable Micro-fluidic Channels For Organ Printing", Proceedings of The ASME 8th International Manufacturing Science And Engineering Conference
  • Yahui Zhang, Howard Chen and Ibrahim Ozbolat, 2013, "Characterization Of Printable Micro-fluidic Channels For Organ Printing", International Mechanical Engineering Congress And Exposition, pp. 553-558
  • Howard Chen and Ibrahim Ozbolat, 2013, "Development of A Multi-arm Bioprinter For Hybrid Tissue Engineering", Proceedings of The ASME 8th International Manufacturing Science And Engineering Conference
  • Ibrahim Ozbolat, Bahattin Koc and Yaqin Deng, 2013, "Multi-directional Blending For Heterogeneous Object Modeling", International Mechanical Engineering Congress And Exposition, pp. 319-324
  • Khoda, A. K. M. Bashirul, Ibrahim Ozbolat and Bahattin Koc, 2013, "Spatially multi-functional porous tissue scaffold", 3rd International Conference On Tissue Engineering (ICTE 2013), 59, pp. 174-182
  • Ibrahim Ozbolat, A. K.M.B. Khoda and Baliattiu Koc, 2012, "Bioadditive manufacturing of hybrid tissue scaffolds for controlled release kinetics", 2, pp. 233-237
  • Yahui Zhang, Howard Chen and Ibrahim Ozbolat, 2012, "Characterization of printable micro-fluidic channels for organ printing", 2, pp. 553-558
  • Akm B. Khoda, Ibrahim Ozbolat and Bahattin Koc, 2012, "Modeling of multifunctional porous tissue scaffolds with continuous deposition path plan", 2, pp. 571-577
  • Ibrahim Ozbolat, Bahattin Koc and Yaqin Deng, 2012, "Multi-directional blending for heterogeneous object modeling", 3, pp. 319-324
  • Ibrahim Ozbolat and B. Koc, 2012, "Multi-material blending for complex-shaped heterogeneous objects", pp. 221-225
  • A. K.M.B. Khoda, Ibrahim Ozbolat and B. Koc, 2012, "Spatially varying porosity with continuous path plan for hollowed tissue scaffolds", pp. 73-77
  • Ibrahim Ozbolat, A. K.M.B. Khoda, M. Marchany, J. A. Gardella and B. Koc, 2012, "Heterogeneous tissue scaffolds for spatiotemporally controlled release kinetics", pp. 79-84
  • Yahui Zhang, Omer Elgaali and Ibrahim Ozbolat, 2012, "Multi-functional hybrid tissue scaffolds", pp. 632-637
  • Khoda, A. K. M. B., Ibrahim Ozbolat and Bahattin Koc, 2012, "Modeling Of Multifunctional Porous Tissue Scaffolds With Continuous Deposition Path Plan", International Mechanical Engineering Congress And Exposition, pp. 1-7
  • Ibrahim Ozbolat and Bahattin Koc, 2012, "Hybrid Wound Devices For Spatiotemporally Controlled Release Kinetics", Proceedings of The ASME International Mechanical Engineering Congress And Exposition, pp. 425-427
  • Bashir Khoda, Ibrahim Ozbolat and Bahattin Koc, 2012, "Modeling And Fabrication of Hollowed Scaffolds With Interconnected Variational Porosity Architecture", Proceedings of The ASME International Mechanical Engineering Congress And Exposition, pp. 969-980
  • Ibrahim Ozbolat, 2012, "Path Planning For Functionally Graded Materials In Hollow Tissue Scaffold Printing", pp. 49-53
  • Ibrahim Ozbolat, Amer Debabneh, Omer Elgaali, Yahui Zhang, Timothy Marler and Steven Turek, 2012, "A model based enterprise approach in electronics manufacturing: Predictive environment for visualization of electromechanical virtual validation", pp. 3704-3708
  • Ibrahim Ozbolat and Bahattin Koc, 2011, "Hybrid wound devices for spatiotemporally controlled release kinetics", 2, pp. 425-427
  • Bashir Khoda, Ibrahim Ozbolat and Bahattin Koc, 2011, "Modeling and fabrication of hollowed scaffolds with interconnected variational porosity architecture", 2, pp. 969-980
  • Ibrahim Ozbolat, 2011, "Path planning for functionally graded materials in hollow tissue scaffold printing", 3, pp. 49-53
  • Ibrahim Ozbolat and Bahattin Koc, 2011, "Multi-directional material blending for heterogeneous object modeling"
  • Ibrahim Ozbolat and Bahattin Koc, 2011, "3D engineered wound scaffolds for spatiotemporally controlled release kinetics"
  • A. K.M.B. Khoda, Ibrahim Ozbolat and Bahattin Koc, 2011, "Continuous path planning for functionally gradient hollowed tissue scaffolds"
  • Ibrahim Ozbolat and Bahattin Koc, 2011, "Continuous toolpath planning for 3D heterogeneous porous structures"
  • Ibrahim Ozbolat, A. K.M.B. Khoda and Bahattin Koc, 2010, "Toolpath optimization in solid freeform modeling and fabrication of 3D porous structures"

Other

  • Shantanab Dinda, Yang Wu and Ibrahim Ozbolat, 2018, "Manufacturing living things", Industrial and Systems Engineer, 50, (8), pp. 35-39
  • Ibrahim Ozbolat and Howard Chen, 2013, "Manufacturing living things", Industrial Engineer, 45, (1), pp. 30-34

Research Projects

Honors and Awards

  • Honorable Mention Award, Society for Biomaterials, 2018 - 2018
  • The International Outstanding Young Researcher in Freeform and Additive Manufacturing Award, International Society of Solid Freeform Fabrication, 2015 - 2015
  • Dr. Hamed K. Eldin Outstanding Early Career IE in Academia Award, Institute of Industrial Engineers, 2015 - 2015
  • Who’s Who in America, Marquis Who’s Who, 2015 - 2015
  • Chao and Trigger Young Manufacturing Engineer Award, American Society of Mechanical Engineers, 2014 - 2014
  • Tau Pi Sigma Gold Medal, American Society of Mechanical Engineers, 2014 - 2014
  • CAREER Award, National Science Foundation, 2014 - 2014
  • Outstanding Young Manufacturing Engineer Award, Society of Manufacturing Engineers, 2014 - 2014
  • Selected Article in 2013 Highlights of Biofabrication, Biofabrication Journal, 2013 - 2013
  • Start-up Launch Award, The University of Iowa, 2013 - 2013
  • Best Manufacturing and Design Track Paper Award, Institute of Industrial Engineers, 2013 - 2013
  • Innovations in Teaching with Technology Award, The University of Iowa, 2013 - 2013
  • Faculty Leadership Award, Center for Computer Aided Design at The University of Iowa, 2013 - 2013
  • Innovations in Teaching with Technology Award, The University of Iowa, 2012 - 2012
  • Old Gold Summer Fellowship Award, The University of Iowa, 2012 - 2012
  • 3rd Prize Recipient at the Engineering Graduate Student Poster Competition, University at Buffalo, 2010 - 2010
  • Winner at Industrial & Systems Engineering Department Poster Competition, University at Buffalo, 2010 - 2010
  • Fellowship for Undergraduate Study, Turkish National Education Foundation, 2002 - 2006
  • Bronze Medal at the 3rd National Mathematics Olympics, The Scientific & Technological Research Council of Turkey, 1998 - 1998
  • Hartz Family Career Development Professorship in Engineering, College of Engineering at Penn State University, 2017

Service

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About

The Department of Biomedical Engineering administers the undergraduate major in biomedical engineering, and is a part of the university-wide Intercollege Graduate Degree Program, offering both M.S. and Ph.D. degrees in Bioengineering. Our work combines traditional engineering principles with medicine and technology for the betterment of human health and society. 

Department of Biomedical Engineering

122 Chemical and Biomedical Engineering Building

The Pennsylvania State University

University Park, PA 16802-4400

Phone: 814-863-6614